A library of 2D electronic material inks synthesized by liquid-metal-assisted intercalation of crystal powders

Shengqi Wang; Wenjie Li; Junying Xue; Jifeng Ge; Jing He; Junyang Hou; Yu Xie; Yuan Li; Hao Zhang; Zdeněk Sofer; Zhaoyang Lin

doi:10.1038/s41467-024-50697-z

Nature Communications (Jul 2024)

A library of 2D electronic material inks synthesized by liquid-metal-assisted intercalation of crystal powders

Shengqi Wang,
Wenjie Li,
Junying Xue,
Jifeng Ge,
Jing He,
Junyang Hou,
Yu Xie,
Yuan Li,
Hao Zhang,
Zdeněk Sofer,
Zhaoyang Lin

Affiliations

Shengqi Wang: Department of Chemistry, Engineering Research Center of Advanced Rare Earth Materials (Ministry of Education), Tsinghua University
Wenjie Li: Department of Chemistry, Engineering Research Center of Advanced Rare Earth Materials (Ministry of Education), Tsinghua University
Junying Xue: Department of Chemistry, Engineering Research Center of Advanced Rare Earth Materials (Ministry of Education), Tsinghua University
Jifeng Ge: Department of Chemistry, Engineering Research Center of Advanced Rare Earth Materials (Ministry of Education), Tsinghua University
Jing He: Department of Chemistry, Engineering Research Center of Advanced Rare Earth Materials (Ministry of Education), Tsinghua University
Junyang Hou: Department of Chemistry, Engineering Research Center of Advanced Rare Earth Materials (Ministry of Education), Tsinghua University
Yu Xie: Department of Chemistry, Engineering Research Center of Advanced Rare Earth Materials (Ministry of Education), Tsinghua University
Yuan Li: Department of Chemistry, Engineering Research Center of Advanced Rare Earth Materials (Ministry of Education), Tsinghua University
Hao Zhang: Department of Chemistry, Engineering Research Center of Advanced Rare Earth Materials (Ministry of Education), Tsinghua University
Zdeněk Sofer: Department of Inorganic Chemistry, University of Chemistry and Technology Prague
Zhaoyang Lin: Department of Chemistry, Engineering Research Center of Advanced Rare Earth Materials (Ministry of Education), Tsinghua University

DOI: https://doi.org/10.1038/s41467-024-50697-z
Journal volume & issue: Vol. 15, no. 1
pp. 1 – 11

Abstract

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Abstract Solution-processable 2D semiconductor inks based on electrochemical molecular intercalation and exfoliation of bulk layered crystals using organic cations has offered an alternative pathway to low-cost fabrication of large-area flexible and wearable electronic devices. However, the growth of large-piece bulk crystals as starting material relies on costly and prolonged high-temperature process, representing a critical roadblock towards practical and large-scale applications. Here we report a general liquid-metal-assisted approach that enables the electrochemical molecular intercalation of low-cost and readily available crystal powders. The resulted solution-processable MoS2 nanosheets are of comparable quality to those exfoliated from bulk crystals. Furthermore, this method can create a rich library of functional 2D electronic inks ( >50 types), including 2D wide-bandgap semiconductors of low electrical conductivity. Lastly, we demonstrated the all-solution-processable integration of 2D semiconductors with 2D conductors and 2D dielectrics for the fabrication of large-area thin-film transistors and memristors at a greatly reduced cost.

Published in Nature Communications

ISSN: 2041-1723 (Online)
Publisher: Nature Portfolio
Country of publisher: United Kingdom
LCC subjects: Science
Website: https://www.nature.com/ncomms/

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